A Conceptual Model of Delay Factors Affecting Government Funded Hydropower Projects

Over the past decades, delay in Hydropower projects particularly Government owned has been a noteworthy issue in the Pakistan. The current study is carried out to study the issues that are contributing or resulting in delay of Hydropower projects. The main purpose is to identify and determine a conceptual model of delay factors which subsequently will be used to examine the impact that delay factors has on government funded hydropower projects. From literature review, thirty one (31) delay factors were identified. Survey was conducted by distributing questionnaires across stakeholders that included consultants, contractors and owners from hydropower projects. Factors of delay under study were categorized under six main groups namely owner, consultant, contractor, project, contract and external and then their impacts on delay were assessed using regression analysis. The three most notable factors of construction delays were identified as: (1) Slow decision making process by owner; (2) Difficulties in financing project by owner; (3) Inadequate contractor’s human resources. The study concluded that owner related delay factors had the highest impact on project completion followed by contractor related while project related exhibited the least impact. This study can benefit stakeholders dealing with the hydropower projects to mitigate and establish suitable solutions for overcoming the delay. Keywords: Government owned, Hydropower projects, Delay factors, Pakista

Effects of Heat Transfer on the Stagnation Flow of a Third-Order Fluid over a Shrinking Sheet

This paper is devoted to the study of a stagnation point flow of an incompressible third-order fluid towards a shrinking sheet (with heat transfer). The governing nonlinear partial differential equations are reduced into nonlinear ordinary differential equations by means of a similarity transformation and then solved by the homotopy analysis method. Two types of flow problems, namely, (i) two dimensional stagnation flow toward a shrinking sheet and (ii) axisymmetric stagnation flow towards an axisymmetric shrinking surface have been discussed. Also, two types of boundary conditions are taken into account: (i) prescribed surface temperature (PST) and (ii) prescribed heat flux (PHF) case. The effects of various emerging parameters of non-Newtonian fluid have been investigated in detail and shown pictorically. The convergence of the solutions have been discussed through h-curves and residual error. For further validity, the homotopy Pade approximation is also applied

[KDy(Hptc)3(H3ptc)]n·2n(Hbipy)·5n(H2O), a layered coordination polymer containing DyO6N3 tri-capped trigonal prisms (H3ptc = Pyridine 2,4,6-Tricarboxylic Acid, C8H5NO6; Bipy = 2,2'-Bipyridine, C10H8N2)

Peer reviewedPublisher PD

Emergency airway management of a patient with tracheal stenosis

We are presenting a case of a 26 year old healthy male, who came with gradual worsening of dyspnoea following prolonged intubation and ventilation, after a road traffic accident five months back. On arrival in ER, he was hypoxaemic with severe respiratory distress. He was transferred to the operation room (OR) for emergency tracheostomy. During the transfer, he was placed in an upright position with oxygen at 15 L/M. In the OR, anaesthesia was induced with sevoflurane gradually. Direct laryngoscopy was done which revealed normal vocal cords. A size 4.00 mm ID endotracheal tube was impossible to pass more than 1-2 cm distal to vocal cords. Due to a large leak, size 8 tube was passed below the cords and cuff was inflated slightly to reduce air leak. Oxygen saturation dropped to 95-96% and surgeon was asked to start tracheostomy. Findings included an almost complete subglottic stenosis, 2 cm below the vocal cords. A tracheostomy tube was inserted below the stenotic lesion which was followed by direct laryngoscopy

Geoelectrical Survey for the Exploration of Ground Water using Vertical Electrical Sounding: A Case Study of Androt District Rawlakot, Azad Jammu & Kashmir

Vertical Electrical Sounding (VES) method has been widely used to depict the subsurface lithology, thickness and structure based on resistivity of layered media with the ultimate objective of evaluating groundwater potential. In this investigation, VES was used to outline subsurface geology to produce a 2D subsurface resistivity model based on the resistivity contrast of layered rocks, for evaluating the accessibility of groundwater in the Siwaliks group of Androt District Rawlakot, Azad Jammu and Kashmir (AJ&K). The Schlumberger electrode configuration was used with spacing arrangement of current electrode (AB/2) going from 1.5 to 250 meters and potential electrode (MN) 1 to 50 meters. The VES data was qualitatively analyzed by using iteration software (IPI2win) which showed that the area is composed of clay, shale, fractured sandstone with intercalation of clay based on resistivity contrast. At depth of 40m-100m along VES indicates good prospects for ground water potential, associated with sandstone beds of Siwaliks group. The resistivity depth section maps at potential depth of 30m, 40m, 60m and 80m are prepared for the demarcation of potential reservoir beds at various depth. The interpreted sounding curves are interpreted qualitatively and pseudo section, Resistivity section and geological log are prepared based on resistivity contrast which shows agreement with geology and hydrological condition of the area. The favorable reservoir rock as an aquifer demarcated in the study area is fractured sandstone with intercalation of clay beds, with apparent resistivity range of 80Ωm to 100Ωm and thickness of 20m to 50m at different sites. The apparent resistivity sections revealed that the North East (NE) and North West (NW) regions are comparatively good potential reservoir for ground water